Triple swirl gas turbine combustor

ABSTRACT

Disclosed is a triple swirl gas turbine combustor using various fuels such as coal gas, DiMethyl Ether, and waste gas generated in an ironworks in a gas turbine. The triple swirl gas turbine combustor combusts three different fuels simultaneously or individually and various fuels such as LCV gas and HCV gas so that fuel flexibility can be improved. Swirl generated in a second swirler of the triple swirler is reversely jetted to increase a mixing degree of a fuel-air mixture and an intensity of a turbulent flow so that combustion efficiency can be increased, harmful exhaust gas can be reduced and vibration can be reduced.

CROSS-REFERENCE TO RELATED APPLICATION

The present application claims priority of Korean Patent ApplicationNumber 10-2008-0107771 filed Oct. 31, 2008, the entire contents of whichapplication is incorporated herein for all purposes by this reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a triple swirl gas turbine combustorand, more particularly to, a triple swirl gas turbine combustor in whicha combustion performance, overall available rate, and fuel flexibilityof a gas turbine are increased.

2. Description of Related Art

In recent years, since energy price is increased and global warmingbecomes more serious, it significantly needs to increase efficiency of apower generating facility and to develop technology using new renewableenergy.

An integrated gasification combined cycle (IGCC) using a gas turbine isa current power generating system having the highest efficiency. Sincethe IGCC can gasify biomass, coal, and garbage such as waste carpet togenerate electricity when a gasification system is coupled therewith,the IGCC is useful to generate electric power using various types offuels.

However, since combined gas generated by gasifying various fuels hasvarious components and a low calorific value, gas turbine combustiontechnology improved than an existing technology is required. That is, itis required a gas turbine capable of combusting various gas fuelsstably.

In general, a gas turbine is a rotary type heat engine including acombustion chamber provided with a plurality of burners at an upper sideand driving turbine with combusted fuel gas at high temperature and highpressure. A gas turbine combustor mounted to the gas turbine includes asingle combustor can to which a plurality of fuel nozzles respectivelyhaving a single swirler is mounted. A plurality of combustor cans ismounted on the center of a rotor of the gas turbine.

However, in the gas turbine combustor having a single swirler, a weakturbulent flow leads unstable flame, and insufficient mixture of fueland air generates NOx and causes imperfect combustion.

BRIEF SUMMARY OF THE INVENTION

Therefore, the present invention has been made in view of the aboveproblems, and the present invention provides a triple swirl gas turbinecombustor capable of combusting triple kinds of fuels simultaneously orindividually, of combusting a low calorific value (LCV) gas and a highcalorific value (HCV) gas to improve fuel flexibility, and of jettingswirl generated from a second swirler of the triple swirlers in thereverse direction so that combustion efficiency can be increased,harmful exhaust gas can be reduced, vibration can be reduced due toincrease of a mixing degree of fuel-air mixture and intensity ofturbulent flow.

In accordance with an embodiment of the present invention, a tripleswirl gas turbine combustor comprising: a case to which an igniter isattached; a combustor liner where ignition is performed by the igniterand having a compressed air inlet, formed at a side of the case, throughwhich compressed air is introduced from a gas turbine compressor and aplurality of cooling air inlets; and a burner having a plurality of airfeeding swirlers with fuel jetting swirl vanes which are concentricallydisposed inside a burner head positioned at the upper side of thecombustor liner to generate a vortex in the compressed air.

Preferably, the swirler comprises a first swirler disposed at the bottomfrom a central shaft of the swirler; a third swirler disposed at thetop; and a second swirler disposed between the first swirler and thethird swirler.

The swirler forms a cone shape such that distances between fuel passagespositioned at the lower side of the swirler are increased as goesoutwardly from the center.

Each of the fuel jetting swirl vane includes a fuel jetting hole 212formed at a side of a vane blade and fuel jetting holes formed in thelongitudinal direction by a preset interval to jet fuel introducedthrough the fuel jetting hole.

The swirl vanes rotate in the first swirler and the third swirler in thesame direction and rotate in the second swirler in the direction reverseto that in the first swirler and the third swirler.

The fuel jetting holes are increased as goes outwardly in the swirlvanes.

The first swirler includes a lift-off air holes through which lift-offair is introduced to prevent a flame from staying at the center.

The burner head includes dump plane cooling air jetting holes to feeddump plane cooling air toward an inner side thereof.

According to the triple swirl gas turbine combustor of the presentinvention, triple types of fuels can be combusted simultaneously orindividually, various fuels such as an LCV gas and a HCV gas can becombusted to improve the fuel flexibility, mixing degree of the fuel-airmixture and intensity of a turbulent flow are increased so thatcombustion efficiency can be increased, harmful exhaust gas can bereduced, and vibration during the combustion can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS

The features and advantages of the present invention will be moreapparent from the following detailed description in conjunction with theaccompanying drawings, in which:

FIG. 1 is a view schematically illustrating a triple swirl gas turbinecombustor according to an embodiment of the present invention;

FIG. 2 is a sectional view illustrating a burner of the triple swirl gasturbine combustor according to the embodiment of the present invention;and

FIG. 3 is a view illustrating swirl vanes of the triple swirl gasturbine combustor according to the embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

Hereinafter, a triple swirl gas turbine combustor according to variousembodiments of the present invention will be described in detail withreference to the accompanying drawings.

FIG. 1 is a view schematically illustrating a triple swirl gas turbinecombustor according to an embodiment of the present invention. FIG. 2 isa sectional view illustrating a burner of the triple swirl gas turbinecombustor according to the embodiment of the present invention. FIG. 3is a view illustrating swirl vanes of the triple swirl gas turbinecombustor according to the embodiment of the present invention.

The triple swirl gas turbine combustor according to the embodiment ofthe present invention, as illustrated in FIG. 1, includes a case 100 towhich an igniter 120 is attached, a combustor liner 130 where ignitionis performed by the igniter 120 and having a compressed air inlet 110,formed at a side of the case 100, through which compressed air isintroduced from a gas turbine compressor and a plurality of cooling airinlets 135, and a burner 300 having an air feeding swirler 200 installedinside a burner head 140 that is positioned at an upper side of thecombustor liner 130 to generate a vortex in the feeding compressed air.

In this case, the compressed gas is introduced through the compressedair inlet 110 such that combustion air is fed to the burner head 140,and simultaneously the cooling air is fed to the combustor liner 130.The cooling air is suctioned into the combustor liner 130 through thecooling air inlets 135 to cool the combustor liner 130.

By doing so, it is possible to prevent damage of the combustor liner 130caused by high-temperature combustion gas and to prolong lifespanthereof.

The compressed air fed to the burner head 140 is jetted toward thecombustor via the triple concentric swirler 200.

In the swirl vanes 210 mounted to the respective swirlers 200, asillustrated in FIG. 3, fuel is fed into the swirl vanes 210 through fuelinjecting holes 212 formed at sides of vane blades 211 and is jettedthrough fuel jetting holes 213.

In this case, the fuel jetting holes 213 are disposed in thelongitudinal direction of the swirl vanes 210 by a preset interval andare gradually increased as goes outwardly in the swirl vanes 210.

The reason why the fuel jetting holes 213 are gradually increased asgoes outward is because large fuel jetting holes 213 are advantageous ofcombusting fuel when a large quantity of LCV fuel is fed to a thirdswirler 203 of the swirlers 200.

In other words, in a case where the first swiler 201, the smallestswirler is used to increase flame stability when the triple swirl gasturbine combustor is driven, it is preferable to use a fuel having highcalorific value and good combustibility such as heavy oil, natural gas,and the like. On the other hand, when the largest third swirler 203 isused, it is preferable to use fuel having an LCV such as coal gas, wastegas generated in an ironworks.

As such, in the triple swirler 200, as illustrated in FIG. 2, thering-shaped first to third swirlers 201, 202, and 203, and the burnerhead 140 are sequentially disposed in a concentric manner from thecenter, and same or different fuels can be fed simultaneously orindividually to the respective swirlers 200 and the LCV gas and the HCVgas can be fed so that fuel flexibility can be improved.

Moreover, since the first swirler 201 is positioned at the bottom of acentral shaft of the swirler 200, the third swirler 203 is positioned atthe top, and the second swirler 202 is positioned at the middle, thethird swirler 203 is positioned farthest away from the flame in thecombustion chamber.

In other words, as illustrated in FIG. 1, the upper side of the burner300 is downwardly inclined toward the center.

On the other hand, the bottom of the burner 300 is upwardly inclinedtoward the center so that the first swirler 201 has the shortestinterval of fuel passage.

As such, the swirler 200 has a cone shape such that a space between therespective swirlers 200, that is, distances between fuel passagespositioned at the bottom of the swirler 200 are gradually increased fromthe center to the outer side to make an air actively flow.

The first swirler 201 has lift-off air holes 220 formed at the centralregion so that lift-off air fed through the lift-off air holes 220prevents the flame from staying at the central region.

Moreover, the burner head 140 has dump plane cooling air jetting holes230 formed in an inner side thereof such that dump plane cooling air isfed through the dump plane cooling air jetting holes 230 to stabilizingcombustion flame and to prevent a high temperature region from beinggenerated in the flame.

The swirl vanes 210 rotate in the first and third swirlers 201 and 203in the same direction and rotate in the second swirler 202 in thedirection reverse to that in the first and third swirlers 201 and 203.The swirl vanes 210, when viewing from the bottom of the burner 300,rotate clockwise in the first swirler 201, counterclockwise in thesecond swirler 202, and clockwise in the third swirler 203.

Due to this configuration, the mixing degree of the fuel-air mixture andintensity of a turbulent flow are increased so that the combustionefficiency is increased, harmful exhaust gas is reduced, and vibrationis reduced.

Although the embodiments of the present invention have been described indetail hereinabove, it should be understood that many variations andmodifications of the basic inventive concept herein described will stillfall within the spirit and scope of the present invention as defined inthe appended claims.

1. A triple swirl gas turbine combustor comprising: a case to which anigniter is attached; a combustor liner where ignition is performed bythe igniter and having a compressed air inlet, formed at a side of thecase, through which compressed air is introduced from a gas turbinecompressor and a plurality of cooling air inlets; and a burner having aplurality of air feeding swirlers with fuel jetting swirl vanes whichare concentrically disposed inside a burner head positioned at the upperside of the combustor liner to generate a vortex in the compressed air.2. The triple swirl gas turbine combustor of claim 1, wherein theswirler comprises: a first swirler disposed at the bottom from a centralshaft of the swirler; a third swirler disposed at the top; and a secondswirler disposed between the first swirler and the third swirler.
 3. Thetriple swirl gas turbine combustor of claim 1, wherein the swirler formsa cone shape such that distances between fuel passages positioned at thelower side of the swirler are increased as goes outwardly from thecenter.
 4. The triple swirl gas turbine combustor of claim 2, whereinthe swirler forms a cone shape such that distances between fuel passagespositioned at the lower side of the swirler are increased as goesoutwardly from the center.
 5. The triple swirl gas turbine combustor ofclaim 1, wherein each of the fuel jetting swirl vane includes a fueljetting hole 212 formed at a side of a vane blade and fuel jetting holesformed in the longitudinal direction by a preset interval to jet fuelintroduced through the fuel jetting hole.
 6. The triple swirl gasturbine combustor of claim 1, wherein the swirl vanes rotate in thefirst swirler and the third swirler in the same direction and rotate inthe second swirler in the direction reverse to that in the first swirlerand the third swirler.
 7. The triple swirl gas turbine combustor ofclaim 5, wherein the swirl vanes rotate in the first swirler and thethird swirler in the same direction and rotate in the second swirler inthe direction reverse to that in the first swirler and the thirdswirler.
 8. The triple swirl gas turbine combustor of claim 5, whereinthe fuel jetting holes are increased as goes outwardly in the swirlvanes.
 9. The triple swirl gas turbine combustor of claim 2, wherein thefirst swirler includes a lift-off air holes through which lift-off airis introduced to prevent a flame from staying at the center.
 10. Thetriple swirl gas turbine combustor of claim 1, wherein the burner headincludes dump plane cooling air jetting holes to feed dump plane coolingair toward an inner side thereof.